calibration_msgs: calibration_msgs: _CalibrationPattern.py Source File

00001 """autogenerated by genmsg_py from CalibrationPattern.msg. Do not edit."""
00002 import roslib.message
00003 import struct
00004 
00005 import calibration_msgs.msg
00006 import geometry_msgs.msg
00007 import std_msgs.msg
00008 
00009 class CalibrationPattern(roslib.message.Message):
00010   _md5sum = "dcc8f54c34016e656521a94b56a70dc3"
00011   _type = "calibration_msgs/CalibrationPattern"
00012   _has_header = True #flag to mark the presence of a Header object
00013   _full_text = """Header header
00014 geometry_msgs/Point32[] object_points
00015 ImagePoint[] image_points
00016 uint8 success
00017 
00018 ================================================================================
00019 MSG: std_msgs/Header
00020 # Standard metadata for higher-level stamped data types.
00021 # This is generally used to communicate timestamped data 
00022 # in a particular coordinate frame.
00023 # 
00024 # sequence ID: consecutively increasing ID 
00025 uint32 seq
00026 #Two-integer timestamp that is expressed as:
00027 # * stamp.secs: seconds (stamp_secs) since epoch
00028 # * stamp.nsecs: nanoseconds since stamp_secs
00029 # time-handling sugar is provided by the client library
00030 time stamp
00031 #Frame this data is associated with
00032 # 0: no frame
00033 # 1: global frame
00034 string frame_id
00035 
00036 ================================================================================
00037 MSG: geometry_msgs/Point32
00038 # This contains the position of a point in free space(with 32 bits of precision).
00039 # It is recommeded to use Point wherever possible instead of Point32.  
00040 # 
00041 # This recommendation is to promote interoperability.  
00042 #
00043 # This message is designed to take up less space when sending
00044 # lots of points at once, as in the case of a PointCloud.  
00045 
00046 float32 x
00047 float32 y
00048 float32 z
00049 ================================================================================
00050 MSG: calibration_msgs/ImagePoint
00051 float32 x
00052 float32 y
00053 
00054 """
00055   __slots__ = ['header','object_points','image_points','success']
00056   _slot_types = ['Header','geometry_msgs/Point32[]','calibration_msgs/ImagePoint[]','uint8']
00057 
00058   def __init__(self, *args, **kwds):
00059     """
00060     Constructor. Any message fields that are implicitly/explicitly
00061     set to None will be assigned a default value. The recommend
00062     use is keyword arguments as this is more robust to future message
00063     changes.  You cannot mix in-order arguments and keyword arguments.
00064     
00065     The available fields are:
00066        header,object_points,image_points,success
00067     
00068     @param args: complete set of field values, in .msg order
00069     @param kwds: use keyword arguments corresponding to message field names
00070     to set specific fields. 
00071     """
00072     if args or kwds:
00073       super(CalibrationPattern, self).__init__(*args, **kwds)
00074       #message fields cannot be None, assign default values for those that are
00075       if self.header is None:
00076         self.header = std_msgs.msg._Header.Header()
00077       if self.object_points is None:
00078         self.object_points = []
00079       if self.image_points is None:
00080         self.image_points = []
00081       if self.success is None:
00082         self.success = 0
00083     else:
00084       self.header = std_msgs.msg._Header.Header()
00085       self.object_points = []
00086       self.image_points = []
00087       self.success = 0
00088 
00089   def _get_types(self):
00090     """
00091     internal API method
00092     """
00093     return self._slot_types
00094 
00095   def serialize(self, buff):
00096     """
00097     serialize message into buffer
00098     @param buff: buffer
00099     @type  buff: StringIO
00100     """
00101     try:
00102       _x = self
00103       buff.write(_struct_3I.pack(_x.header.seq, _x.header.stamp.secs, _x.header.stamp.nsecs))
00104       _x = self.header.frame_id
00105       length = len(_x)
00106       buff.write(struct.pack('<I%ss'%length, length, _x))
00107       length = len(self.object_points)
00108       buff.write(_struct_I.pack(length))
00109       for val1 in self.object_points:
00110         _x = val1
00111         buff.write(_struct_3f.pack(_x.x, _x.y, _x.z))
00112       length = len(self.image_points)
00113       buff.write(_struct_I.pack(length))
00114       for val1 in self.image_points:
00115         _x = val1
00116         buff.write(_struct_2f.pack(_x.x, _x.y))
00117       buff.write(_struct_B.pack(self.success))
00118     except struct.error as se: self._check_types(se)
00119     except TypeError as te: self._check_types(te)
00120 
00121   def deserialize(self, str):
00122     """
00123     unpack serialized message in str into this message instance
00124     @param str: byte array of serialized message
00125     @type  str: str
00126     """
00127     try:
00128       if self.header is None:
00129         self.header = std_msgs.msg._Header.Header()
00130       end = 0
00131       _x = self
00132       start = end
00133       end += 12
00134       (_x.header.seq, _x.header.stamp.secs, _x.header.stamp.nsecs,) = _struct_3I.unpack(str[start:end])
00135       start = end
00136       end += 4
00137       (length,) = _struct_I.unpack(str[start:end])
00138       start = end
00139       end += length
00140       self.header.frame_id = str[start:end]
00141       start = end
00142       end += 4
00143       (length,) = _struct_I.unpack(str[start:end])
00144       self.object_points = []
00145       for i in range(0, length):
00146         val1 = geometry_msgs.msg.Point32()
00147         _x = val1
00148         start = end
00149         end += 12
00150         (_x.x, _x.y, _x.z,) = _struct_3f.unpack(str[start:end])
00151         self.object_points.append(val1)
00152       start = end
00153       end += 4
00154       (length,) = _struct_I.unpack(str[start:end])
00155       self.image_points = []
00156       for i in range(0, length):
00157         val1 = calibration_msgs.msg.ImagePoint()
00158         _x = val1
00159         start = end
00160         end += 8
00161         (_x.x, _x.y,) = _struct_2f.unpack(str[start:end])
00162         self.image_points.append(val1)
00163       start = end
00164       end += 1
00165       (self.success,) = _struct_B.unpack(str[start:end])
00166       return self
00167     except struct.error as e:
00168       raise roslib.message.DeserializationError(e) #most likely buffer underfill
00169 
00170 
00171   def serialize_numpy(self, buff, numpy):
00172     """
00173     serialize message with numpy array types into buffer
00174     @param buff: buffer
00175     @type  buff: StringIO
00176     @param numpy: numpy python module
00177     @type  numpy module
00178     """
00179     try:
00180       _x = self
00181       buff.write(_struct_3I.pack(_x.header.seq, _x.header.stamp.secs, _x.header.stamp.nsecs))
00182       _x = self.header.frame_id
00183       length = len(_x)
00184       buff.write(struct.pack('<I%ss'%length, length, _x))
00185       length = len(self.object_points)
00186       buff.write(_struct_I.pack(length))
00187       for val1 in self.object_points:
00188         _x = val1
00189         buff.write(_struct_3f.pack(_x.x, _x.y, _x.z))
00190       length = len(self.image_points)
00191       buff.write(_struct_I.pack(length))
00192       for val1 in self.image_points:
00193         _x = val1
00194         buff.write(_struct_2f.pack(_x.x, _x.y))
00195       buff.write(_struct_B.pack(self.success))
00196     except struct.error as se: self._check_types(se)
00197     except TypeError as te: self._check_types(te)
00198 
00199   def deserialize_numpy(self, str, numpy):
00200     """
00201     unpack serialized message in str into this message instance using numpy for array types
00202     @param str: byte array of serialized message
00203     @type  str: str
00204     @param numpy: numpy python module
00205     @type  numpy: module
00206     """
00207     try:
00208       if self.header is None:
00209         self.header = std_msgs.msg._Header.Header()
00210       end = 0
00211       _x = self
00212       start = end
00213       end += 12
00214       (_x.header.seq, _x.header.stamp.secs, _x.header.stamp.nsecs,) = _struct_3I.unpack(str[start:end])
00215       start = end
00216       end += 4
00217       (length,) = _struct_I.unpack(str[start:end])
00218       start = end
00219       end += length
00220       self.header.frame_id = str[start:end]
00221       start = end
00222       end += 4
00223       (length,) = _struct_I.unpack(str[start:end])
00224       self.object_points = []
00225       for i in range(0, length):
00226         val1 = geometry_msgs.msg.Point32()
00227         _x = val1
00228         start = end
00229         end += 12
00230         (_x.x, _x.y, _x.z,) = _struct_3f.unpack(str[start:end])
00231         self.object_points.append(val1)
00232       start = end
00233       end += 4
00234       (length,) = _struct_I.unpack(str[start:end])
00235       self.image_points = []
00236       for i in range(0, length):
00237         val1 = calibration_msgs.msg.ImagePoint()
00238         _x = val1
00239         start = end
00240         end += 8
00241         (_x.x, _x.y,) = _struct_2f.unpack(str[start:end])
00242         self.image_points.append(val1)
00243       start = end
00244       end += 1
00245       (self.success,) = _struct_B.unpack(str[start:end])
00246       return self
00247     except struct.error as e:
00248       raise roslib.message.DeserializationError(e) #most likely buffer underfill
00249 
00250 _struct_I = roslib.message.struct_I
00251 _struct_3I = struct.Struct("<3I")
00252 _struct_B = struct.Struct("<B")
00253 _struct_3f = struct.Struct("<3f")
00254 _struct_2f = struct.Struct("<2f")